Effect of Passive Gait Training on the Cortical Activity in Patients With Severe Traumatic Brain Injury.

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Severe traumatic brain injury, especially after a high energy trauma, is characterised with focal lesions and diffuse axonal injury, which leads to the dysfunction in the cortico-spinal, cortico- cortical connections and reticular activation system. Formatio reticularis plays an important role in arousal. Tactile and proprioceptive stimulation with a view to improving level of consciousness in coma patients is popular in the western world despite insufficient evidence of its effectiveness. Affolter-Bobath-Coombes-concept is the most commonly used tool in the rehabilitation of brain damaged patients. This concept is based on the theory that tactile, proprioceptive and oral stimulation develops new connections in the brain and thereby stimulates consciousness and behaviour. Elliot et al shows improvement in level of consciousness due to postural changes from a lying position to a standing posture in 8 of 12 patients using Wessex Head Injury Matrix.

Passive movements result in proprioceptive stimulation; the effect of which is close to that achieved by physiological voluntary activity. PET and fMRI studies show that passive movements activate several areas in the motor cortex.

In order to increase afferent cortical input, passive gait training in the body weight support robotic gait orthosis could be used in patients with impaired consciousness, inability to cooperate and poor balance. This device gives the possibility to establish therapeutically correct upright body position and passive legs movement simultaneously.

To our knowledge there are no studies, which illustrate the effects of passive gait training on cortical activity in patients with impaired consciousness due to severe traumatic brain injury.

Our hypothesis is that passive gait training of this group of patients increases arousal, which can be shown in an increased EEG (electroencephalogram)-frequency and increased conductivity speed of the cognitive P300-component of ERP (Event Related Potentials).

Comparison(s): EEG- and ERP-activity after a single training session in robotic gait orthosis in patients with severe traumatic brain injury, compared to EEG- and ERP-activity after a single training session in robotic gait orthosis in healthy persons.

Gait training: Gait robot (Lokomat®, Hocoma, Switzerland) is adjusted to the patient/healthy volunteer individually with chest strap, pelvic straps, harness, leg cuffs and foot lifters. Weight is adjusted individually, so there is a minimum weight support (i.e. when one foot is standing on the treadmill the other foot lifts free from the treadmill thereby simulating normal gait). Gait speed is 1,7-2,3 km/hour (speed can be changed and adjusted that the normal step length is achieved).The duration of the training session is 20 minutes.Blood pressure and pulse are monitored.

Experimental: 2

Healthy volunteers

Behavioral: body weight support treadmill training

Gait training: Gait robot (Lokomat®, Hocoma, Switzerland) is adjusted to the patient/healthy volunteer individually with chest strap, pelvic straps, harness, leg cuffs and foot lifters. Weight is adjusted individually, so there is a minimum weight support (i.e. when one foot is standing on the treadmill the other foot lifts free from the treadmill thereby simulating normal gait). Gait speed is 1,7-2,3 km/hour (speed can be changed and adjusted that the normal step length is achieved).The duration of the training session is 20 minutes.Blood pressure and pulse are monitored.

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